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Literature DB >> 22303255

Jasmonates.

Abstract

ARABIDOPSIS IS A SUPERB MODEL FOR THE STUDY OF AN IMPORTANT SUBGROUP OF OXYLIPINS: the jasmonates. Jasmonates control many responses to cell damage and invasion and are essential for reproduction. Jasmonic acid (JA) is a prohormone and is conjugated to hydrophobic amino acids to produce regulatory ligands. The major receptor for active jasmonate ligands is closely related to auxin receptors and, as in auxin signaling, jasmonate signaling requires the destruction of repressor proteins. This chapter uses a frequently asked question (FAQ) approach and concludes with a practical section.

Entities: Chemical Species

Year: 2010 PMID： 22303255 PMCID： PMC3244945 DOI： 10.1199/tab.0129

Source DB: PubMed Journal: Arabidopsis Book ISSN： 1543-8120

108 in total

1. X-ray structure of Arabidopsis At2g06050, 12-oxophytodienoate reductase isoform 3.

Authors: Thomas E Malone; Stacey E Madson; Russell L Wrobel; Won Bae Jeon; Nathan S Rosenberg; Kenneth A Johnson; Craig A Bingman; David W Smith; George N Phillips; John L Markley; Brian G Fox
Journal: Proteins Date: 2005-01-01

2. The outcomes of concentration-specific interactions between salicylate and jasmonate signaling include synergy, antagonism, and oxidative stress leading to cell death.

Authors: Luis A J Mur; Paul Kenton; Rainer Atzorn; Otto Miersch; Claus Wasternack
Journal: Plant Physiol Date: 2005-12-23 Impact factor: 8.340

Review 3. Arabidopsis non-host resistance to powdery mildews.

Authors: Ulrike Lipka; Rene Fuchs; Volker Lipka
Journal: Curr Opin Plant Biol Date: 2008-05-20 Impact factor: 7.834

4. Plant defense in the absence of jasmonic acid: the role of cyclopentenones.

Authors: A Stintzi; H Weber; P Reymond; J Browse; E E Farmer
Journal: Proc Natl Acad Sci U S A Date: 2001-10-09 Impact factor: 11.205

5. NPR1 modulates cross-talk between salicylate- and jasmonate-dependent defense pathways through a novel function in the cytosol.

Authors: Steven H Spoel; Annemart Koornneef; Susanne M C Claessens; Jerôme P Korzelius; Johan A Van Pelt; Martin J Mueller; Antony J Buchala; Jean-Pierre Métraux; Rebecca Brown; Kemal Kazan; L C Van Loon; Xinnian Dong; Corné M J Pieterse
Journal: Plant Cell Date: 2003-03 Impact factor: 11.277

6. Molecular mechanism for jasmonate-induction of anthocyanin accumulation in Arabidopsis.

Authors: Xiaoyi Shan; Yongsheng Zhang; Wen Peng; Zhilong Wang; Daoxin Xie
Journal: J Exp Bot Date: 2009-07-12 Impact factor: 6.992

7. Detritivorous crustaceans become herbivores on jasmonate-deficient plants.

Authors: Edward E Farmer; Lucie Dubugnon
Journal: Proc Natl Acad Sci U S A Date: 2009-01-12 Impact factor: 11.205

8. Arabidopsis ASA1 is important for jasmonate-mediated regulation of auxin biosynthesis and transport during lateral root formation.

Authors: Jiaqiang Sun; Yingxiu Xu; Songqing Ye; Hongling Jiang; Qian Chen; Fang Liu; Wenkun Zhou; Rong Chen; Xugang Li; Olaf Tietz; Xiaoyan Wu; Jerry D Cohen; Klaus Palme; Chuanyou Li
Journal: Plant Cell Date: 2009-05-12 Impact factor: 11.277

9. The mediator complex subunit PFT1 is a key regulator of jasmonate-dependent defense in Arabidopsis.

Authors: Brendan N Kidd; Cameron I Edgar; Krish K Kumar; Elizabeth A Aitken; Peer M Schenk; John M Manners; Kemal Kazan
Journal: Plant Cell Date: 2009-08-11 Impact factor: 11.277

10. cyclo-Oxylipin-galactolipids in plants: occurrence and dynamics.

Authors: Christine Böttcher; Elmar W Weiler
Journal: Planta Date: 2007-04-03 Impact factor: 4.540

47 in total

1. AtTrm5a catalyses 1-methylguanosine and 1-methylinosine formation on tRNAs and is important for vegetative and reproductive growth in Arabidopsis thaliana.

Authors: Xiaohuan Jin; Zhengyi Lv; Junbao Gao; Rui Zhang; Ting Zheng; Ping Yin; Dongqin Li; Liangcai Peng; Xintao Cao; Yan Qin; Staffan Persson; Bo Zheng; Peng Chen
Journal: Nucleic Acids Res Date: 2019-01-25 Impact factor: 16.971

2. Glutamate receptor-like channel3.3 is involved in mediating glutathione-triggered cytosolic calcium transients, transcriptional changes, and innate immunity responses in Arabidopsis.

Authors: Feng Li; Jing Wang; Chunli Ma; Yongxiu Zhao; Yingchun Wang; Agula Hasi; Zhi Qi
Journal: Plant Physiol Date: 2013-05-08 Impact factor: 8.340

3. Jasmonate signalling in Arabidopsis involves SGT1b-HSP70-HSP90 chaperone complexes.

Authors: Xue-Cheng Zhang; Yves A Millet; Zhenyu Cheng; Jenifer Bush; Frederick M Ausubel
Journal: Nat Plants Date: 2015-04-27 Impact factor: 15.793

4. Jasmonate controls leaf growth by repressing cell proliferation and the onset of endoreduplication while maintaining a potential stand-by mode.

Authors: Sandra Noir; Moritz Bömer; Naoki Takahashi; Takashi Ishida; Tjir-Li Tsui; Virginia Balbi; Hugh Shanahan; Keiko Sugimoto; Alessandra Devoto
Journal: Plant Physiol Date: 2013-02-25 Impact factor: 8.340

Review 5. Associations between phytohormones and cellulose biosynthesis in land plants.

Authors: Liu Wang; Bret E Hart; Ghazanfar Abbas Khan; Edward R Cruz; Staffan Persson; Ian S Wallace
Journal: Ann Bot Date: 2020-10-06 Impact factor: 4.357

Review 6. Jasmonates: biosynthesis, perception, signal transduction and action in plant stress response, growth and development. An update to the 2007 review in Annals of Botany.

Authors: C Wasternack; B Hause
Journal: Ann Bot Date: 2013-04-04 Impact factor: 4.357

10. Overaccumulation of γ-Glutamylcysteine in a Jasmonate-Hypersensitive Arabidopsis Mutant Causes Jasmonate-Dependent Growth Inhibition.

Authors: Hsin-Ho Wei; Martha Rowe; Jean-Jack M Riethoven; Ryan Grove; Jiri Adamec; Yusuke Jikumaru; Paul Staswick
Journal: Plant Physiol Date: 2015-08-17 Impact factor: 8.340